Method and device for transmitting uplink information on unlicensed carrier

ABSTRACT

The invention discloses a method and a device for transmitting uplink information on an unlicensed carrier, and implementing uplink information transmission on the unlicensed carrier. The method comprises: a terminal device determines a current time resource set for performing data transmission on an unlicensed carrier with respect to network equipment, wherein the network equipment uses a time resource set obtained by means of competition to perform data transmission on an unlicensed carrier, each time resource set comprises continuously distributed time resources, and time resources in different time resource sets are separated by an interval; and the terminal device transmits, to the network equipment, on the unlicensed carrier using a first time resource in the current time resource set, the uplink information, wherein the uplink information corresponds to downlink information transmitted by the network equipment using at least one previous time resource set in the current time resource set.

TECHNICAL FIELD

Embodiments of the disclosure relate to the field of communications, andmore particularly to a method and device for transmitting uplinkinformation on an unlicensed carrier.

BACKGROUND

At present, it is considered to use unlicensed frequency bands (forexample, 2.4 GHz and 5.8 GHz) in a wireless cellular system to extendfrequency of use in the cellular system, and the methods mainly includea License Assisted Access (LAA) technology. LAA mainly has the followingcharacteristics: an unlicensed frequency band is required to beaggregated with a licensed frequency band for use, and the unlicensedfrequency band can only work as a secondary carrier; and use of theunlicensed frequency band is not only limited to scheduling of a basestation but also limited to a load of the frequency band, and namely,may be used only through a contention mechanism. Before a sending enddevice transmits data on an unlicensed carrier, the sending end deviceis required to perform Listen Before Talk (LBT) detection on theunlicensed carrier, and may transmit the data on the unlicensed carrieronly after determining that a channel is in an idle state. In addition,time for which the sending end device occupies the transmission channelof the unlicensed carrier every time should not exceed a maximumoccupation duration. Therefore, the sending end device is required torelease the channel after occupying the channel for a certain period andcontend for a channel resource again when being required to use thechannel.

At present, there is yet no solution for transmitting uplink informationon an unlicensed frequency band. If terminal equipment executes LBTbefore sending uplink information on an unlicensed carrier, sincedifferent terminal equipment is at different locations in a cell andtheir detection results about the same unlicensed carrier may be greatlydifferent, time for transmitting the uplink information by the terminalequipment in a system is greatly different. In addition, networkequipment (for example, a base station) is required to maintain a timesequence relationship (for example, Acknowledgement(ACK)/Non-Acknowledgement (NACK) feedback information) of the uplinkinformation for different terminal equipment respectively, which iscomplex in implementation.

SUMMARY

The embodiments of the disclosure provide a method and device fortransmitting uplink information on an unlicensed carrier, which mayimplement transmission of the uplink information on the unlicensedcarrier.

A first aspect provides a method for transmitting uplink information onan unlicensed carrier, which may include that: terminal equipmentdetermines a present time resource set for data transmission of networkequipment on the unlicensed carrier, wherein the network equipment mayperform data transmission on the unlicensed carrier through timeresource sets obtained by contention, time resources included in eachtime resource set may be continuously distributed, and the timeresources in different time resource sets may be distributed atintervals; and the terminal equipment sends the uplink information tothe network equipment in a first time resource of the present timeresource set on the unlicensed carrier, the uplink informationcorresponding to downlink information transmitted by the networkequipment in at least one previous time resource set of the present timeresource set.

Specifically, the time resource sets obtained by the network equipmentby contention include the present time resource set and the at least oneprevious time resource set, and any time resource in the at least oneprevious time resource set is located before any time resource in thepresent time resource set.

Therefore, according to the method for transmitting the uplinkinformation on the unlicensed carrier in the embodiments of thedisclosure, the network equipment contends for transmission resources onthe unlicensed carrier, and the terminal equipment transmits the uplinkinformation in the present time resource set, obtained by the networkequipment by contention, of the unlicensed carrier, the uplinkinformation corresponding to the downlink information transmitted by thenetwork equipment in the at least one previous time resource set, andthe terminal equipment may transmit the uplink information withoutcontending for the transmission resources on the unlicensed carrier.

In combination with the first aspect, in a first possible implementationmode of the first aspect, the downlink information may include DownlinkControl Information (DCI), and the uplink information may include aPhysical Uplink Shared Channel (PUSCH); or the downlink information mayinclude a Physical Downlink Shared Channel (PDSCH), and the uplinkinformation may include an ACK/NACK.

In combination with the abovementioned possible implementation mode, ina second possible implementation mode of the first aspect, the operationthat the terminal equipment determines the present time resource set fordata transmission of the network equipment on the unlicensed carrier mayinclude that: the terminal equipment receives first information sent bythe network equipment; and the terminal equipment determines a setnumber of the present time resource set obtained by the networkequipment by contention according to the first information.

In combination with the abovementioned possible implementation modes, ina third possible implementation mode of the first aspect, the firstinformation may include System Frame Number (SFN) information of asystem frame where a starting time resource in the present time resourceset is located, or the first information may include set numberinformation of the present time resource set.

In combination with the abovementioned possible implementation modes, ina fourth possible implementation mode of the first aspect, before theoperation that the terminal equipment sends the uplink information tothe network equipment in the first time resource of the present timeresource set on the unlicensed carrier, the method may further includethat: the terminal equipment receives second information sent by thenetwork equipment in the present time resource set, the secondinformation indicating that the present time resource set or the firsttime resource is configured for transmission of the uplink informationcorresponding to the downlink information transmitted by the networkequipment in the at least one previous time resource set; or theterminal equipment receives third information sent by the networkequipment in the at least one previous time resource set, the thirdinformation indicating that the uplink information corresponding to thedownlink information transmitted by the network equipment in the atleast one previous time resource set is transmitted in the present timeresource set or the first time resource; or the terminal equipmentdetermines according to a preset rule that the present time resource setor the first time resource is configured for transmission of the uplinkinformation corresponding to the downlink information transmitted by thenetwork equipment in the at least one previous time resource set.

In combination with the abovementioned possible implementation modes, ina fifth possible implementation mode of the first aspect, the thirdinformation may include the set number information of the present timeresource set.

In combination with the abovementioned possible implementation modes, ina sixth possible implementation mode of the first aspect, the secondinformation may include set number information of each of the at leastone previous time resource set.

In combination with the abovementioned possible implementation modes, ina seventh possible implementation mode of the first aspect, the secondinformation may further include time resource number information of atleast one target time resource unit in the at least one previous timeresource set, wherein the first time resource may be configured fortransmission of the uplink information corresponding to the downlinkinformation transmitted by the network equipment on the at least onetarget time resource unit.

Optionally, a time resource unit is specifically a subframe, and thesecond information further includes subframe number information of atleast one target subframe in the at least one previous time resourceset. In this case, the first time resource may specifically correspondto the at least one target subframe.

In combination with the abovementioned possible implementation modes, inan eighth possible implementation mode of the first aspect, before theoperation that the terminal equipment sends the uplink information tothe network equipment in the first time resource of the present timeresource set on the unlicensed carrier, the method may further includethat: the terminal equipment determines the first time resource in thepresent time resource set according to a preset rule; or the terminalequipment receives fourth information sent by the network equipment inthe present time resource set, the fourth information being configuredto indicate the first time resource.

In combination with the abovementioned possible implementation modes, ina ninth possible implementation mode of the first aspect, the downlinkinformation may include the PDSCH, and the uplink information mayinclude the ACK/NACK; and the operation that the terminal equipmentsends the uplink information to the network equipment in the first timeresource of the present time resource set on the unlicensed carrier mayinclude that: the terminal equipment sends an N-bit ACK/NACK to thenetwork equipment through a Physical Uplink Control Channel (PUCCH) orPUSCH on the first time resource, the N-bit ACK/NACK being configured toindicate whether the terminal equipment successfully receives the PDSCHsent to the terminal equipment by the network equipment in the at leastone previous time resource set.

In combination with the abovementioned possible implementation modes, ina tenth possible implementation mode of the first aspect, the operationthat the terminal equipment sends the N-bit ACK/NACK to the networkequipment through the PUCCH or PUSCH on the first time resource mayinclude that: the terminal equipment sends the N-bit ACK/NACK to thenetwork equipment on the first time resource by adopting PUCCH format 3or PUCCH format 4 or PUCCH format 5.

In combination with the abovementioned possible implementation modes, inan eleventh possible implementation mode of the first aspect, N may bedetermined by the following formula:

${N = {\sum\limits_{i = 0}^{K - 1}{C \cdot X_{i}}}},$

where K may represent a number of the at least one previous timeresource set, C may represent a maximum bit number of the ACK/NACKcorresponding to each PDSCH, X_(i) may be equal to a number of timeresource units included in an ith previous time resource set in the atleast one previous time resource set or equal to a number of downlinktime resource units included in the ith previous time resource set orequal to a parameter value configured for the ith previous time resourceset by the network equipment, and the parameter value may not be greaterthan the number of the time resource units included in the ith previoustime resource set.

In combination with the abovementioned possible implementation modes, ina twelfth possible implementation mode of the first aspect, N may bedetermined by the following formula:

${N = {\sum\limits_{i = 0}^{K - 1}Y_{i}}},$

where K may represent the number of the at least one previous timeresource set, Y_(i) may be equal to the parameter value configured forthe ith previous time resource set in the at least one previous timeresource set by the network equipment, and the parameter value may be aninteger more than or equal to 0.

A second aspect provides another method for transmitting uplinkinformation on an unlicensed carrier, which may include that: networkequipment determines a present time resource set for data transmissionon the unlicensed carrier, wherein the network equipment may performdata transmission on the unlicensed carrier through time resource setsobtained by contention, time resources included in each time resourceset may be continuously distributed, and the time resources in differenttime resource sets may be distributed at intervals; and the networkequipment receives the uplink information sent by terminal equipment ina first time resource of the present time resource set on the unlicensedcarrier, the uplink information corresponding to downlink informationtransmitted by the network equipment in at least one previous timeresource set.

Specifically, the time resource sets obtained by the network equipmentby contention include the present time resource set and the at least oneprevious time resource set, and any time resource in the at least oneprevious time resource set is located before any time resource in thepresent time resource set.

In combination with the second aspect, in a first possibleimplementation mode of the second aspect, the downlink information mayinclude DCI, and the uplink information may include a PUSCH; or thedownlink information may include a PDSCH, and the uplink information mayinclude an ACK/NACK.

In combination with the abovementioned possible implementation mode, ina second possible implementation mode of the second aspect, before theoperation that the network equipment receives the uplink informationsent by the terminal equipment in the first time resource of the presenttime resource set on the unlicensed carrier, the method may furtherinclude that: the network equipment sends first information, the firstinformation being configured to indicate a set number of the presenttime resource set.

In combination with the abovementioned possible implementation mode, ina third possible implementation mode of the second aspect, the firstinformation may include SFN information of a system frame where astarting time resource in the present time resource set is located, orthe first information may include set number information of the presenttime resource set.

In combination with the abovementioned possible implementation modes, ina fourth possible implementation mode of the second aspect, before theoperation that the network equipment receives the uplink informationsent by the terminal equipment in the first time resource of the presenttime resource set on the unlicensed carrier, the method may furtherinclude that: the network equipment sends second information in thepresent time resource set, the second information indicating that thepresent time resource set or the first time resource is configured fortransmission of the uplink information corresponding to the downlinkinformation transmitted by the network equipment in the at least oneprevious time resource set; or the network equipment sends thirdinformation in the at least one previous time resource set, the thirdinformation indicating that the uplink information corresponding to thedownlink information transmitted by the network equipment in the atleast one previous time resource set is transmitted in the present timeresource set or the first time resource; or the network equipmentdetermines that the present time resource set or the first time resourceis configured for transmission of the uplink information correspondingto the downlink information transmitted in the at least one previoustime resource set according to a preset rule.

In combination with the abovementioned possible implementation modes, ina fifth possible implementation mode of the second aspect, the thirdinformation may include the set number information of the present timeresource set.

In combination with the abovementioned possible implementation modes, ina sixth possible implementation mode of the second aspect, the secondinformation may include set number information of each of the at leastone previous time resource set.

In combination with the abovementioned possible implementation modes, ina seventh possible implementation mode of the second aspect, the secondinformation may further include time resource number information of atleast one target time resource unit in the at least one previous timeresource set, wherein the first time resource may be configured fortransmission of the uplink information corresponding to the downlinkinformation transmitted by the network equipment on the at least onetarget time resource unit.

In combination with the abovementioned possible implementation modes, inan eighth possible implementation mode of the second aspect, before theoperation that the network equipment receives the uplink informationsent by the terminal equipment in the first time resource of the presenttime resource set on the unlicensed carrier, the method may furtherinclude that: the network equipment sends fourth information in thepresent time resource set, the fourth information being configured toindicate the first time resource.

In combination with the abovementioned possible implementation modes, ina ninth possible implementation mode of the second aspect, the downlinkinformation may include the PDSCH, and the uplink information mayinclude the ACK/NACK; and the operation that the network equipmentreceives the uplink information sent by the terminal equipment in thefirst time resource of the present time resource set on the unlicensedcarrier may include that: the network equipment receives an N-bitACK/NACK transmitted by the terminal equipment through a PUCCH or PUSCHon the first time resource, the N-bit ACK/NACK being configured toindicate whether the terminal equipment successfully receives the PDSCHsent to the terminal equipment by the network equipment in the at leastone previous time resource set.

In combination with the abovementioned possible implementation modes, ina tenth possible implementation mode of the second aspect, the operationthat the network equipment receives the N-bit ACK/NACK transmitted bythe terminal equipment through the PUCCH or PUSCH on the first timeresource may include that: the network equipment receives the N-bitACK/NACK transmitted by the terminal equipment on the first timeresource by adopting PUCCH format 3 or PUCCH format 4 or PUCCH format 5.

In combination with the abovementioned possible implementation modes, inan eleventh possible implementation mode of the second aspect, N may bedetermined by the following formula:

${N = {\sum\limits_{i = 0}^{K - 1}{C \cdot X_{i}}}},$

where K may represent a number of the at least one previous timeresource set, C may represent a maximum bit number of the ACK/NACKcorresponding to each PDSCH, X_(i) may be equal to a number of timeresource units included in an ith previous time resource set of the atleast one previous time resource set or equal to a number of downlinktime resource units included in the ith time resource set or equal to aparameter value configured for the ith time resource set by the networkequipment, and the parameter value may not be larger than the number ofthe time resource units included in the ith time resource set.

In combination with the abovementioned possible implementation modes, ina twelfth possible implementation mode of the second aspect, N may bedetermined by the following formula:

${N = {\sum\limits_{i = 0}^{K - 1}Y_{i}}},$

where K may represent the number of the at least one previous timeresource set, Y_(i) may be equal to the parameter value configured forthe ith time resource set in the at least one previous time resource setby the network equipment, and the parameter value may be an integer morethan or equal to 0.

A third aspect provides a device for transmitting uplink information onan unlicensed carrier, which is configured to execute the method in thefirst aspect or any possible implementation mode of the first aspect.Specifically, the device includes units configured to execute the methodin the first aspect or any possible implementation mode of the firstaspect.

A fourth aspect provides another device for transmitting uplinkinformation on an unlicensed carrier, which is configured to execute themethod in the second aspect or any possible implementation mode of thesecond aspect. Specifically, the device includes units configured toexecute the method in the second aspect or any possible implementationmode of the second aspect.

A fifth aspect provides another device for transmitting uplinkinformation on an unlicensed carrier, which includes a memory and aprocessor, the memory is configured to store instructions, the processoris configured to execute the instructions stored in the memory, and whenthe processor executes the instructions stored in the memory, suchexecution causes the processor to execute the method in the first aspector any possible implementation mode of the first aspect.

A sixth aspect provides another device for transmitting uplinkinformation on an unlicensed carrier, which includes a memory and aprocessor, the memory is configured to store instructions, the processoris configured to execute the instructions stored in the memory, and whenthe processor executes the instruction stored in the memory, suchexecution causes the processor to execute the method in the secondaspect or any possible implementation mode of the second aspect.

A seventh aspect provides a computer-readable medium, which isconfigured to store a computer program, the computer program includinginstructions configured for the execution of the method in the firstaspect or any possible implementation mode of the first aspect.

An eighth aspect provides a computer-readable medium, which isconfigured to store a computer program, the computer program includinginstructions configured for the execution of the method in the secondaspect or any possible implementation mode of the second aspect.

Optionally, in some aspects of the disclosure, the network equipmentsends at least one of the following information in a broadcast form: thefirst information, the second information, the third information or thefourth information.

In such a manner, the network equipment may configure all terminalequipment to adopt the same uplink and downlink subframe correspondenceor Hybrid Automatic Repeat reQuest (HARQ) correspondence without theneed of determining an uplink and downlink correspondence according to arespective condition of each piece of terminal equipment, so thatcomplexity of the network equipment is reduced, and system performanceis improved.

BRIEF DESCRIPTION OF DRAWINGS

In order to describe the technical solutions of the embodiments of thedisclosure more clearly, the drawings required to be used in thedescriptions about the embodiments of the disclosure or a related artwill be simply introduced below. Obviously, the drawings described beloware only some embodiments of the disclosure. Other drawings may furtherbe obtained by those skilled in the art according to these drawingswithout creative work.

FIG. 1 is a schematic diagram of a system architecture applied in theembodiments of the disclosure.

FIG. 2 is a schematic flowchart of a method for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure.

FIG. 3 is an example of a method for transmitting uplink information onan unlicensed carrier according to an embodiment of the disclosure.

FIG. 4 is another example of a method for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure.

FIG. 5 is another example of a method for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure.

FIG. 6 is a schematic block diagram of a device for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure.

FIG. 7 is a schematic block diagram of another device for transmittinguplink information on an unlicensed carrier according to an embodimentof the disclosure.

FIG. 8 is a schematic block diagram of another device for transmittinguplink information on an unlicensed carrier according to an embodimentof the disclosure.

FIG. 9 is a schematic block diagram of another device for transmittinguplink information on an unlicensed carrier according to an embodimentof the disclosure.

DETAILED DESCRIPTION

The technical solutions in the embodiments of the disclosure will beclearly and completely described below in combination with the drawingsin the embodiments of the disclosure. Obviously, the describedembodiments are not all embodiments but part of embodiments of thedisclosure. All other embodiments obtained by those skilled in the arton the basis of the embodiments in the disclosure without creative workshall fall within the scope of protection of the disclosure.

It should be understood that the technical solutions of the embodimentsof the disclosure may be applied to various communication systems, forexample: a Global System of Mobile Communication (GSM), a Code DivisionMultiple Access (CDMA) system, a Wideband Code Division Multiple Access(WCDMA) system, a General Packet Radio Service (GPRS), a Long TermEvolution (LTE) system, an LTE Frequency Division Duplex (FDD) system,an LTE Time Division Duplex (TDD), a Universal Mobile TelecommunicationSystem (UMTS), a Worldwide Interoperability for Microwave Access (WiMAX)communication system and the like.

In addition, terms “system” and “network” in the disclosure may usuallybe exchanged for use in the disclosure. Term “and/or” in the disclosureis only an association relationship for describing associated objects,and represents that there may exist three relationships. For example, Aand/or B may represent the three conditions that: A existsindependently, A and B both exist, and B exists independently. Moreover,the character “/” in the disclosure usually represents that theassociated objects form an “or” relationship.

FIG. 1 illustrates a wireless communication system 100 applied in theembodiments of the disclosure. The wireless communication system 100 mayinclude at least one piece of network equipment 110. The networkequipment 110 may be equipment communicating with terminal equipment.Each piece of network equipment 100 may provide communication coveragefor a specific geographical region, and may communicate with terminalequipment in the coverage. The network equipment 110 may be a BaseTransceiver Station (BTS) in the GSM or the CDMA system, may also be aNodeB (NB) in the WCDMA system, and may further be an Evolutional Node B(eNB or eNodeB) in the LTE system or a wireless controller in a CloudRadio Access Network (CRAN). Or the network equipment may be a relaystation, an access point, vehicle-mounted equipment, wearable equipment,network-side equipment in a future 5th-Generation (5G) network, networkequipment in a future evolved Public Land Mobile Network (PLMN) and thelike.

The wireless communication system 100 further includes multiple piecesof terminal equipment 120 located within the coverage of the networkequipment 110. The terminal equipment 120 may be mobile or fixed. Theterminal equipment 120 may be an access terminal, User Equipment (UE), auser unit, a user station, a mobile radio station, a mobile station, aremote station, a remote terminal, mobile equipment, a user terminal, aterminal, wireless communication equipment, a user agent or a userdevice. The access terminal may be a cell phone, a cordless phone, aSession Initiation Protocol (SIP) phone, a Wireless Local Loop (WLL)station, a Personal Digital Assistant (PDA), handheld equipment with awireless communication function, computing equipment or other processingequipment connected to a wireless modem, vehicle-mounted equipment,wearable equipment, terminal equipment in the future 5G network,terminal equipment in the future evolved PLMN and the like.

FIG. 1 exemplarily illustrates one piece of network equipment and twopieces of terminal equipment. Optionally, the wireless communicationsystem 100 may include multiple pieces of network equipment and anotheramount of terminal equipment may be included in coverage of each pieceof network equipment, which will not be limited in the embodiments ofthe disclosure.

Optionally, the wireless communication system 100 may further includeanother network entity such as a network controller and a mobilitymanagement entity, which will not be limited in the embodiments of thedisclosure.

The wireless communication system 100 may support LAA. For example, thewireless communication system 100 is specifically a Licensed AssistedAccess Using Long Term Evolution (LAA-LTE) or another communicationsystem, which will not be limited in the embodiments of the disclosure.When the network equipment 110 and the terminal equipment 120communicate in an LAA manner, not only a licensed spectrum but also anunlicensed spectrum may be adopted, wherein the unlicensed spectrum isintegrated in the LAA manner into a cellular communication network (forexample, LTE) that originally adopts only the licensed spectrum, and mayserve as a secondary component carrier in a carrier aggregationscenario. The licensed spectrum may be used only after licensing. Theunlicensed spectrum requires no licensing, and may be legally used byanyone. In this case, a carrier on the licensed spectrum is called as alicensed carrier, and a carrier on the unlicensed spectrum is called asan unlicensed carrier.

In an LAA-LTE system or another communication system supporting LAA,network equipment may schedule an unlicensed carrier under assistance ofa licensed carrier, wherein an LBT mechanism may be adopted for accessof the unlicensed carrier, which, however, may not form any limit to theembodiments of the disclosure. Optionally, before performing datatransmission on the unlicensed carrier, the network equipment maycontend with a node in a Wireless Local Area Network (WLAN) and/oranother node adopting LAA in the cellular network for resources on theunlicensed carrier and perform data transmission by using the resourcesobtained by contention after successful contention.

For ease of description, continuous time resources on the unlicensedcarrier which the network equipment obtains by contention every time maybe determined as a time resource set. The time resource set may includeat least one continuous subframe or include the at least one continuoussubframe and part of time resources in a certain subframe (for example,at least one continuous symbol in a certain subframe), for example,including a subframe n to subframe in which are continuously distributedand at least one continuous symbol in a subframe m+1, which will notform any limit to the embodiments of the disclosure.

Each time resource set obtained by the network equipment by contentionmay include continuously distributed time resources, and the timeresources included in different time resource sets may be distributed atintervals, wherein the intervals may be one or more subframes and mayalso be one or more symbols, which will not be limited in theembodiments of the disclosure.

The network equipment may perform data transmission in the time resourcesets obtained by contention. For example, the network equipment may senddownlink information, for example, signaling or a PDSCH, to the terminalequipment in the time resource sets and may also receive uplinkinformation, for example, an uplink feedback or a PUSCH, sent by theterminal equipment in the time resource sets, which will not be limitedin the embodiments of the disclosure.

FIG. 2 illustrates a method 200 for transmitting uplink informationaccording to an embodiment of the disclosure. The method may be appliedto transmission of the uplink information on an unlicensed carrier inLAA.

In S210, network equipment obtains at least one previous time resourceset of an unlicensed carrier by contention, and sends downlinkinformation to terminal equipment in the at least one previous timeresource set.

Optionally, the network equipment may adopt an LBT mechanism to contendfor a transmission channel of the unlicensed carrier. The networkequipment obtains each of the at least one previous time resource set bycontention, and may send the downlink information in the at least oneprevious time resource set. Optionally, the network equipment mayfurther send the downlink information to other terminal equipment in theat least one previous time resource set.

In S220, the network equipment continues contending for transmissionresources on the unlicensed carrier.

If the network equipment obtains the transmission resources on theunlicensed carrier by contention, a time resource set formed bycontinuous time resources, currently obtained by the network equipmentby contention, on the unlicensed carrier may be called as a present timeresource set.

In S230, terminal equipment determines a present time resource set fordata transmission of the network equipment on the unlicensed carrier.

The terminal equipment may determine in multiple manners the timeresource set currently obtained by the network equipment by contention,i.e., the present time resource set. Optionally, the network equipmentmay send information in the present time resource set, the informationmay include indication information or a PDSCH, and correspondingly, theterminal equipment may determine the present time resource set, obtainedby the network equipment by contention, of the unlicensed carrieraccording to the information received in the present time resource set.For example, the network equipment may send the information in astarting time resource of the present time resource set, and mayspecifically send it to the terminal equipment in a broadcast form or aunicast form, which will not be limited in the embodiments of thedisclosure.

As an alternative embodiment, the network equipment may send firstinformation in the present time resource set, the first informationbeing configured to indicate a set number of the present time resourceset. Correspondingly, the terminal equipment may determine the setnumber of the present time resource set according to the firstinformation, namely determining the number of the present time resourceset in the time resource sets obtained by the network equipment bycontention. The first information may explicitly or implicitly indicatethe set number of the present time resource set. Optionally, the firstinformation may include number information of a system frame where astarting time resource in the present time resource set is located. Forexample, the first information may include System Frame Number (SFN)information of a first subframe in the present time resource set.Alternatively, the first information may include set number informationof the present time resource set. For example, time resource setsobtained by the network equipment by contention on the unlicensedcarrier may be numbered according to a time sequence. However, this willnot form any limit to the embodiments of the disclosure.

Optionally, the terminal equipment may further determine the continuoustime resources included in the present time resource set according tothe first information. For example, the network equipment may send thefirst information on a specific time resource (for example, the specifictime resource may specifically be an Nth time resource unit in thepresent time resource set, and the time resource unit may be a subframeor a symbol or another unit) in the present time resource set, thespecific time resource may be the starting time resource in the presenttime resource set, and correspondingly, the terminal equipment maydetermine the continuous time resources included in the present timeresource set according to the specific time resource. However, this willnot form any limit to the embodiments of the disclosure.

The network equipment may send the first information in the broadcastform and may also send the first information in the unicast or multicastmanner, which will not be limited in the embodiments of the disclosure.

In S240, the terminal equipment sends uplink information to the networkequipment on a first time resource of the unlicensed carrier, whereinthe uplink information corresponds to the downlink informationtransmitted by the network equipment in the at least one previous timeresource set.

Each time resource set in the at least one previous time resource set islocated before the present time resource set, that is, any time resourcein the at least one previous time resource set is located before anytime resource in the present time resource set. The network equipmentobtains the at least one previous time resource set of the unlicensedcarrier by contention, and transmits the downlink information in each ofthe at least one previous time resource set, and the downlinkinformation may include a PDSCH or downlink control signaling. Theterminal equipment sends the uplink information corresponding to thedownlink information in the at least one previous time resource set tothe network equipment in the present time resource set. If the downlinkinformation includes the PDSCH, the uplink information sent by theterminal equipment may include feedback information, for example, anACK/NACK, configured to indicate whether the terminal equipmentsuccessfully receives the PDSCH. If the downlink information includesthe downlink control signaling, for example, DCI, the uplink informationsent by the terminal equipment may include a PUSCH scheduled by thedownlink control signaling. If the downlink information includes areference signal, for example, a Cell Reference Signal (CRS) or aChannel State Information Reference Signal (CSI-RS), the uplinkinformation sent by the terminal equipment may include a measurementresult for the reference signal by the terminal equipment, for example,Channel State Information (CSI). However, this will not form any limitto the embodiments of the disclosure.

Optionally, as another alternative embodiment, if the terminal equipmentdoes not receive any downlink information sent by the network equipmentin the at least one previous time resource set or does not receive anydownlink information requiring uplink information to be sent in the atleast one previous time resource set, the terminal equipment may send nouplink information to the network equipment in the present time resourceset. However, this will not form any limit to the embodiments of thedisclosure.

In the embodiment of the disclosure, the terminal equipment maydetermine the first time resource in multiple manners. Optionally, thefirst time resource may be determined according to a preset rule, andthe preset rule may be specified by a protocol and preset in theterminal equipment, or may be configured by the network equipment inadvance. For example, the first time resource may be an Mth timeresource in the present time resource set, and the time resource unitmay be a subframe or a symbol or another unit. Optionally, the networkequipment may send the first information in the present time resourceset, and the terminal equipment may determine the first time resourceaccording to the first information and a preset interval between thetime resource for sending the first information and the first timeresource. For example, the first time resource and the time resource forsending the first information are adjacent or spaced by a fixed numberof time resources, which will not be limited in the embodiments of thedisclosure.

Optionally, as another embodiment, the terminal equipment may receivefourth information sent by the network equipment, the fourth informationindicating the first time resource for transmitting the uplinkinformation, and determine the first time resource according to thefourth information, wherein the fourth information may be sent by thenetwork equipment in the present time resource set or sent by thenetwork equipment in the at least one previous time resource set, whichwill not be limited in the embodiments of the disclosure. The fourthinformation may explicitly or implicitly indicate the first timeresource. For example, the fourth information may include resourcenumber information of the first time resource. For example, the firsttime resource may specifically be a first subframe and the fourthinformation includes time resource number information of the firstsubframe, which will not be limited in the embodiments of thedisclosure.

In the embodiment of the disclosure, the terminal equipment maydetermine a corresponding relationship between the first time resourceand the at least one previous time resource set in multiple manners.Optionally, the terminal equipment may determine the correspondingrelationship according to a preset rule. For example, a correspondingrelationship between the at least one previous time resource set and thepresent time resource set is predetermined or specified. For example,the at least one previous time resource set is one or more previous timeresource sets of the present time resource set, and correspondingly, theterminal equipment may determine the corresponding relationship betweenthe first time resource and the at least one previous time resource setaccording to the corresponding relationship between the present timeresource set and the at least one previous time resource set and thefirst time resource for transmitting the uplink information in thepresent time resource set. For another example, the correspondingrelationship between a time resource in the present time resource setand a previous time resource set is predetermined or specified. Forexample, an Lth time resource unit in the present time resource set hasa correspondence with a Pth previous time resource set of the presenttime resource set, which, however, will not form any limit to theembodiments of the disclosure.

Optionally, as another embodiment, the terminal equipment may receivesecond information sent by the network equipment in the present timeresource set or third information sent by the network equipment in theat least one previous time resource set. Correspondingly, the terminalequipment may determine the corresponding relationship between the firsttime resource and/or the present time resource set and the at least oneprevious time resource set according to the second information or thethird information. Optionally, the second information may include atleast one of: set number information of each of the at least oneprevious time resource set or number information of a system frame wherea starting time resource of each of the at least one previous timeresource set is located (for example, SFN information of a firstsubframe). The uplink information sent by the terminal equipment on thefirst time resource may correspond to part or all of the downlinkinformation in each of the at least one previous time resource set.Optionally, the second information may further include time resourcenumber information of at least one target time resource unit in the atleast one previous time resource set, wherein the target time resourceunit may specifically be a target subframe or another time resourceunit, and in this case, the uplink information sent on the first timeresource corresponds to the downlink information on the at least onetarget time resource unit. However, this will not form any limit to theembodiments of the disclosure.

Descriptions will be made below with the condition that a time resourceset is specifically a subframe set and a time resource unit isspecifically a subframe as an example. Assume that the present timeresource set is specifically a subframe set n and the at least oneprevious time resource set includes a subframe set n−1 and a subframeset n−2. The first time resource includes a subframe a and a subframe b,wherein the subframe a corresponds to the subframe set n−2, the subframeb corresponds to the subframe set n−1, an SFN of a first subframe in thesubframe set n−2 is . . . 01, and an SFN of a first subframe insubframes in the subframe set n−1 is . . . 10. As illustrated in FIG. 3,the second information may indicate that the subframe a corresponds tothe SFN . . . 01 and the subframe b corresponds to the SFN . . . 10.That is, the subframe a is configured for transmission of uplinkinformation corresponding to the subframe set with the SFN . . . 01, andthe subframe b is configured for transmission of uplink informationcorresponding to the subframe set with the SFN . . . 10, wherein a rangeof the SFN of the subframe may be 01,023, and correspondingly, the SFNmay be indicated by 10 bits.

Optionally, for reducing a signaling overhead, the network equipment mayindicate an SFN of a first subframe in a certain previous time resourceset by adopting M bits in the second information, M being an integermore than or equal to 2. For example, the second information containslast M bits or M bits at other locations of the SFN, which will not belimited in the embodiments of the disclosure.

As illustrated in FIG. 4, the second information indicates a set numberof the previous time resource set by adopting 2 bits. Specifically, aset number of the subframe set n−2 is 10, a set number of the subframeset n−1 is 11, and then the second information may indicate that thesubframe a corresponds to the set number 10 and the subframe bcorresponds to the set number 11.

If a specific time resource in the at least one previous time resourceset is not indicated in the second information, the terminal equipmentmay send uplink information corresponding to all time resources or alldownlink time resources or all downlink time resources that havereceived downlink information in each of the at least one previous timeresource set on the first time resource as a default. Optionally, thesecond information may further include time resource number informationof a time resource corresponding to the first time resource in a certainprevious time resource set. For example, the second information mayfurther include subframe number information of at least one targetsubframe corresponding to the first time resource in the previous timeresource set, wherein a value of the subframe number may be 0-9.Optionally, the second information may include 4 bits for indicating thesubframe number of the subframe corresponding to the first timeresource, or 10 subframes in a radio frame may be divided into L groupsin advance, wherein 9, and a number of the group the subframecorresponding to the first time resource is indicated in the secondinformation by adopting ┌log₂ L┐ bits.

As illustrated in FIG. 5, the subframe a corresponds to a subframe 4 inthe subframe set n−2, and the subframe b corresponds to a subframe 2 inthe subframe set n−1. Then, the second information may specificallyindicate that the subframe a corresponds to a subframe with SFNinformation of 01 and a subframe number of 4, and the subframe bcorresponds to a subframe with SFN information of 10 and a subframenumber of 2, which, however, will not form any limit to the embodimentsof the disclosure.

It should be noted that the example of FIG. 3 to FIG. 5 is intended notto limit the scope of the embodiment of the disclosure but to help thoseskilled in the art better understood the embodiments of the disclosure.Those skilled in the art may obviously make various equivalentmodifications or variations according to the given example of FIG. 3 toFIG. 5, and such modifications or variations also fall within the scopeof the embodiment of the disclosure.

As another alternative embodiment, the second information is furtherconfigured to indicate a number of subframes and/or a number of downlinksubframes in the at least one previous time resource set, which,however, will not form any limit to the embodiments of the disclosure.

As another alternative embodiment, the terminal equipment may determinethe corresponding relationship between the first time resource and theat least one previous time resource set according to the thirdinformation. Optionally, the third information may further be configuredto indicate the present time resource set or indicate the first timeresource in the present time resource set. For example, the thirdinformation may include the set number information of the present timeresource set or may further include a location of the first timeresource in the present time resource set. As a specific example, thenetwork equipment sends DCI to the terminal equipment in a time resourceset L obtained by contention, the DCI being configured to schedule thePUSCH of the terminal equipment and indicate the PUSCH to be transmittedin a time resource set L+M obtained by contention, M being an integermore than or equal to 1. However, this will not form any limit to theembodiments of the disclosure.

It should be understood that the first information, the secondinformation, the third information and the fourth information may becontained in different messages or part of the information may becontained in the same message. For example, the first information or thefourth information may be contained with the second information in thesame message, or the first information and the third information may becontained in the same message, which will not be limited in theembodiments of the disclosure.

Therefore, according to the method for transmitting the uplinkinformation on the unlicensed carrier in the embodiments of thedisclosure, the network equipment contends for transmission resources onthe unlicensed carrier, and the terminal equipment transmits the uplinkinformation in the present time resource set, obtained by the networkequipment by contention, of the unlicensed carrier. The uplinkinformation corresponds to the downlink information transmitted by thenetwork equipment in the at least one previous time resource set, andthe terminal equipment is not required to contend for the transmissionresources on the unlicensed carrier. In addition, the network equipmentmay configure all terminal equipment to adopt the same uplink anddownlink subframe correspondence, and is not required to determine anuplink and downlink correspondence according to a respective conditionof each piece of terminal equipment, so that complexity of the networkequipment is reduced, and system performance is improved.

In the embodiment of the disclosure, the terminal equipment may send theuplink information on the first time resource. Optionally, the firsttime resource may correspond to one or more time resource units, forexample, one or more subframes, and the uplink information maycorrespond to the downlink information in one previous time resourceset, or may correspond to the downlink information in each of multipleprevious time resource sets, and may specifically correspond to thedownlink information in one or more time resource units in each previoustime resource set. That is, in the embodiment of the disclosure, theterminal equipment may send the uplink information corresponding to thedownlink information in one or more other time resource units on onetime resource unit. For example, an ACK/NACK corresponding to a PDSCH inone or more other subframes is fed back in one subframe. However, thiswill not form any limit to the embodiments of the disclosure.

Optionally, the terminal equipment may transmit feedback information ona PUCCH or a PUSCH, and the feedback information may specifically be anACK/NACK. If the terminal equipment transmits the ACK/NACK on the PUCCH,the terminal equipment may optionally transmit the ACK/NACK in PUCCHformat 3 or PUCCH format 4 or PUCCH format 5 or another format, which,however, will not form any limit to the embodiments of the disclosure.

The terminal equipment may transmit an N-bit ACK/NACK in the first timeresource. N may be a number of all time resource units or a number ofall downlink time resource units included in the at least one previoustime resource set, and in this case, the terminal equipment may fill atime resource unit receiving no PDSCH with 0 or 1; or, N may also be anumber of time resource units of PDSCHs received by the terminalequipment and sent by the network equipment in the at least one previoustime resource set, or may further be a numerical value configured by thenetwork equipment. However, this will not form any limit to theembodiments of the disclosure.

As an alternative embodiment, N is determined by the following formula:

$\begin{matrix}{{N = {\sum\limits_{i = 0}^{K - 1}{C \cdot X_{i}}}},} & (1)\end{matrix}$

where K represents a number of the at least one previous time resourceset, C represents a maximum bit number of the ACK/NACK corresponding toeach PDSCH, X_(i) is equal to a number of time resource units includedin an ith previous time resource set of the at least one previous timeresource set or equal to a number of downlink time resource unitsincluded in the ith previous time resource set or equal to a parametervalue configured for the ith previous time resource set by the networkequipment, and the parameter value may not be greater than the number ofthe time resource units included in the ith previous time resource set.

As another alternative embodiment, N is determined by the followingformula:

$\begin{matrix}{{N = {\sum\limits_{i = 0}^{K - 1}Y_{i}}},} & (2)\end{matrix}$

where K represents the number of the at least one previous time resourceset, Y_(i) is equal to the parameter value configured for the ithprevious time resource set of the at least one previous time resourceset by the network equipment, and the parameter value is an integer morethan or equal to 0.

In the embodiment of the disclosure, if multiple pieces of terminalequipment correspond to the same uplink and downlink subframecorrespondence (or called as a HARQ time sequence relationship), theremay occur the condition that at least one two pieces of terminalequipment send uplink information to the network equipment on a sametime resource of the unlicensed carrier. In this case, the at least twopieces of terminal equipment may transmit the uplink information byadopting different resources (for example, frequency resources, coderesources and the like) on the same first time resource. Optionally,resources corresponding to different terminal equipment may bepredefined and may also be configured by the network equipment, whichwill not be limited in the embodiments of the disclosure.

As another alternative embodiment, the method 200 further includes thefollowing operations.

The network equipment sends fifth information, the fifth informationbeing configured to indicate resource number information correspondingto the terminal equipment on the first time resource.

The fifth indication information may be sent in the unicast, multicastor broadcast form. For example, the network equipment may broadcast thefifth information, the fifth information being configured to indicateresource number information corresponding to each piece of terminalequipment in multiple pieces of terminal equipment on the first timeresource. In this case, the terminal equipment may send the uplinkinformation to the network equipment on the first time resource byadopting transmission resources indicated by the fifth information.

It should be understood that the embodiment is described with thecondition that the uplink information includes the ACK/NACK and/or thePUSCH as an example, and optionally, the uplink information may furtherinclude a scheduling request and/or CSI. However, this will not form anylimit to the embodiments of the disclosure.

It should also be understood that a serial number of each process doesnot mean the execution order, and the execution order of each processshould be determined according to its function and an internal logic,which should not form any limit to an implementation process of theembodiments of the disclosure.

The method for transmitting the uplink information on the unlicensedcarrier according to the embodiments of the disclosure has beendescribed above in combination with FIG. 1 to FIG. 5 in detail, and adevice for transmitting the uplink information on the unlicensed carrieraccording to the embodiments of the disclosure will be described belowin combination with FIG. 6 to FIG. 9.

FIG. 6 illustrates a device 300 for transmitting uplink information onan unlicensed carrier according to an embodiment of the disclosure. Thedevice 300 includes the following units.

A determination unit 310 is configured to determine a present timeresource set configured for data transmission of network equipment onthe unlicensed carrier, wherein the network equipment performs datatransmission on the unlicensed carrier through time resource setsobtained by contention, time resources in each time resource setobtained by contention are continuously distributed, and the timeresources in different time resource sets are distributed at intervals.

A sending unit 320 is configured to send the uplink information to thenetwork equipment on a first time resource in the present time resourceset determined by the determination unit 310, the uplink informationcorresponding to downlink information transmitted by the networkequipment in at least one previous time resource set.

Specifically, the time resource sets obtained by the network equipmentby contention include the present time resource set and the at least oneprevious time resource set, and any time resource in the at least oneprevious time resource set is located before any time resource in thepresent time resource set.

Optionally, the downlink information includes DCI, and the uplinkinformation includes a PUSCH.

Optionally, as another embodiment, the downlink information includes aPDSCH, and the uplink information includes an ACK/NACK.

As another alternative embodiment, the device 300 further includes: afirst receiving unit, configured to receive first information sent bythe network equipment.

Correspondingly, the determination unit 310 is specifically configuredto determine a set number of the present time resource set obtained bythe network equipment by contention according to the first informationreceived by the first receiving unit.

As an alternative embodiment, the first information includes numberinformation of a system frame where a starting time resource in thepresent time resource set is located, or the first information includesset number information of the present time resource set.

As an alternative embodiment, the device 300 further includes: a secondreceiving unit, configured to, before the sending unit 320 sends theuplink information to the network equipment on the first time resourcein the present time resource set determined by the determination unit310, receive second information sent by the network equipment in thepresent time resource set, the second information indicating that thefirst time resource or the present time resource set is configured fortransmission of the uplink information corresponding to the downlinkinformation transmitted by the network equipment in the at least oneprevious time resource set.

As another alternative embodiment, the device 300 further includes: asecond receiving unit, configured to, before the sending unit 320 sendsthe uplink information to the network equipment on the first timeresource in the present time resource set determined by thedetermination unit 310, receive third information sent by the networkequipment in the at least one previous time resource set, the thirdinformation indicating that the uplink information corresponding to thedownlink information transmitted by the network equipment in the atleast one previous time resource set is transmitted in the present timeresource set or the first time resource.

As another alternative embodiment, the determination unit 310 is furtherconfigured to, before the sending unit 320 sends the uplink informationto the network equipment on the first time resource in the present timeresource set determined by the determination unit, determine accordingto a preset rule that the present time resource set or the first timeresource is configured for transmission of the uplink informationcorresponding to the downlink information transmitted by the networkequipment in the at least one previous time resource set.

As an alternative embodiment, the third information includes set numberinformation of the present time resource set.

As an alternative embodiment, the second information includes set numberinformation of each of the at least one previous time resource set.

As another alternative embodiment, the second information furtherincludes time resource number information of at least one target timeresource unit in the at least one previous time resource set, whereinthe first time resource is configured for transmission of the uplinkinformation corresponding to the downlink information transmitted by thenetwork equipment on the at least one target time resource unit.

As another alternative embodiment, the determination unit 310 is furtherconfigured to, before the sending unit 320 sends the uplink informationto the network equipment on the first time resource in the present timeresource set, determine the first time resource in the present timeresource set according to a preset rule.

As another alternative embodiment, the device 300 further includes: athird receiving unit, configured to, before the sending unit 320 sendsthe uplink information to the network equipment on the first timeresource in the present time resource set, receive fourth informationsent by the network equipment in the present time resource set, thefourth information being configured to indicate the first time resource.

As another alternative embodiment, the downlink information includes thePDSCH, and the uplink information includes the ACK/NACK. In this case,the sending unit 320 is specifically configured to send an N-bitACK/NACK to the network equipment through a PUCCH or PUSCH on the firsttime resource, the N-bit ACK/NACK being configured to indicate whetherthe terminal equipment successfully receives the PDSCH sent by thenetwork equipment in the at least one previous time resource set.

It should be understood that the device 300 is embodied in form of afunctional unit. Here, the term “unit” may refer to an ApplicationSpecific Integrated Circuit (ASIC), an electronic circuit, a processor(for example, a shared processor, a dedicated processor or a groupprocessor) configured to execute one or more software or firmwareprograms, a memory, a merged logic circuit and/or another propercomponents supporting a described function. In an alternative example,those skilled in the art should know that the device 300 mayspecifically be the terminal equipment in the abovementioned embodimentsand the device 300 may be configured to execute each flow and/or stepcorresponding to the terminal equipment in the abovementioned methodembodiments, which, for avoiding repetitions, will not be elaboratedherein.

FIG. 7 illustrates another device 400 for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure. The device 400 includes the following units.

A determination unit 410 is configured to determine a present timeresource set for data transmission on the unlicensed carrier, whereinnetwork equipment performs data transmission on the unlicensed carrierthrough time resource sets obtained by contention, time resources ineach time resource set are continuously distributed, and the timeresources in different time resource sets are distributed at intervals.

A receiving unit 420 is configured to receive the uplink informationsent by terminal equipment on a first time resource in the present timeresource set determined by the determination unit 410, the uplinkinformation corresponding to downlink information transmitted by thenetwork equipment in at least one previous time resource set.

Specifically, the time resource sets obtained by the network equipmentby contention include the present time resource set and the at least oneprevious time resource set, and any time resource in the at least oneprevious time resource set is located before any time resource in thepresent time resource set.

As an alternative example, the downlink information includes DCI, andthe uplink information includes a PUSCH.

As another alternative embodiment, the downlink information includes aPDSCH, and the uplink information includes an ACK/NACK.

As another alternative embodiment, the device 400 further includes thefollowing units.

A first sending unit is configured to send first information before thereceiving unit 420 receives the uplink information sent by the terminalequipment on the first time resource in the present time resource set,the first information being configured to indicate a set number of thepresent time resource set.

As an alternative embodiment, the first information includes numberinformation of a system frame where a starting time resource in thepresent time resource set is located, or the first information includesset number information of the present time resource set.

As an alternative embodiment, the device 400 further includes: a secondsending unit, configured to, before the receiving unit 420 receives theuplink information send by the terminal equipment on the first timeresource in the present time resource set, send second information inthe present time resource set, the second information indicating thatthe first time resource or the present time resource set is configuredfor transmission of the uplink information corresponding to the downlinkinformation transmitted by the network equipment in the at least oneprevious time resource set.

As another alternative embodiment, the device 400 further includes: asecond sending unit, configured to, before a sending unit sends theuplink information to the network equipment on the first time resourcein the present time resource set, send third information sent in theprevious time resource set, the third information indicating that theuplink information corresponding to the downlink information transmittedby the network equipment in the at least one previous time resource setis transmitted in the present time resource set or the first timeresource.

As another alternative embodiment, the determination unit 410 is furtherconfigured to determine according to a preset rule that the present timeresource set or the first time resource is configured for transmissionof the uplink information corresponding to the downlink informationtransmitted in the at least one previous time resource set.

As an alternative embodiment, the third information includes set numberinformation of the present time resource set.

As an alternative embodiment, the second information includes set numberinformation of each of the at least one previous time resource set.

As another alternative embodiment, the second information furtherincludes time resource number information of at least one target timeresource unit in the at least one previous time resource set, whereinthe first time resource is configured for transmission of the uplinkinformation corresponding to the downlink information transmitted by thenetwork equipment on the at least one target time resource unit.

As another alternative embodiment, the device 400 further includes: athird sending unit, configured to, before the receiving unit 420receives the uplink information sent by the terminal equipment on thefirst time resource in the present time resource set, send fourthinformation in the present time resource set, the fourth informationbeing configured to indicate the first time resource.

As another alternative embodiment, the downlink information includes thePDSCH, and the uplink information includes the ACK/NACK. In this case,the receiving unit 420 is specifically configured to receive an N-bitACK/NACK transmitted by the terminal equipment through a PUCCH or PUSCHon the first time resource, the N-bit ACK/NACK being configured toindicate whether the terminal equipment successfully receives the PDSCHsent by the network equipment in the at least one previous time resourceset.

It should be understood that the device 400 is embodied in form of afunctional unit. Here, the term “unit” may refer to an ASIC, anelectronic circuit, a processor (for example, a shared processor, adedicated processor or a group processor) configured to execute one ormore software or firmware programs, a memory, a merged logic circuitand/or another proper components supporting a described function. In analternative example, those skilled in the art should know that thedevice 300 may specifically be the terminal equipment in theabovementioned embodiments, and the device 400 may be configured toexecute each flow and/or step corresponding to the network equipment inthe abovementioned method embodiments, which, for avoiding repetitions,will not be elaborated herein.

FIG. 8 illustrates another device 500 for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure. The device 500 includes the following components.

A processor 510 is configured to determine a present time resource setconfigured for data transmission of network equipment on the unlicensedcarrier, wherein the network equipment performs data transmission on theunlicensed carrier through time resource sets obtained by contention,time resources included in each time resource set are continuouslydistributed, and the time resources in different time resource sets aredistributed at intervals; and

A transceiver 520 is configured to send the uplink information to thenetwork equipment on a first time resource in the present time resourceset determined by the processor 510, the uplink informationcorresponding to downlink information transmitted by the networkequipment in at least one previous time resource set.

Specifically, the time resource sets obtained by the network equipmentby contention include the present time resource set and the at least oneprevious time resource set, and any time resource in the at least oneprevious time resource set is located before any time resource in thepresent time resource set.

It should be understood that the device 500 may specifically be theterminal equipment in the abovementioned embodiments and may beconfigured to execute each flow and/or step corresponding to theterminal equipment in the abovementioned method embodiments. Optionally,the device 500 may further include a memory, and the memory may includea Read-Only Memory (ROM) and a Random Access Memory (RAM), and providesinstructions and data for the processor. Part of the memory may furtherinclude a nonvolatile random access memory. For example, the memory mayfurther store information of an equipment type. The processor may beconfigured to execute the instructions stored in the memory, and whenthe processor executes the instructions stored in the memory, theprocessor is configured to execute each step and/or flow of theabovementioned method embodiments. Optionally, the device 500 mayfurther include a bus, and the processor, the transceiver and the memorymay be connected through the bus.

FIG. 9 illustrates another device 600 for transmitting uplinkinformation on an unlicensed carrier according to an embodiment of thedisclosure. The device 600 includes the following components.

A processor 610 is configured to determine a present time resource setfor data transmission on the unlicensed carrier, wherein networkequipment performs data transmission on the unlicensed carrier throughtime resource sets obtained by contention, time resources included ineach time resource set are continuously distributed, and the timeresources in different time resource sets are distributed at intervals.

A transceiver 620 is configured to receive the uplink information sentby terminal equipment on a first time resource in the present timeresource set determined by the processor 610, the uplink informationcorresponding to downlink information transmitted by the networkequipment in at least one previous time resource set.

Specifically, the time resource sets obtained by the network equipmentby contention include the present time resource set and the at least oneprevious time resource set, and any time resource in the at least oneprevious time resource set is located before any time resource in thepresent time resource set.

It should be understood that the device 600 may specifically be thenetwork equipment in the abovementioned embodiments and may beconfigured to execute each flow and/or step corresponding to the networkequipment in the abovementioned method embodiments. Optionally, thedevice 600 may further include a memory, and the memory may include aROM and a RAM, and provides instructions and data for the processor.Part of the memory may further include a nonvolatile random accessmemory. For example, the memory may further store information of anequipment type. The processor may be configured to execute theinstructions stored in the memory, and when the processor executes theinstructions stored in the memory, the processor is configured toexecute each step and/or flow of the abovementioned method embodiments.Optionally, the device 600 may further include a bus, and the processor,the transceiver and the memory may be connected through the bus.

It should be understood that, in the embodiments of the disclosure, theprocessor may be a Central Processing Unit (CPU), and the processor mayalso be another universal processor, a Digital Signal Processor (DSP),an ASIC, a Field-Programmable Gate Array (FPGA) or another programmablelogic device, discrete gate or transistor logical device, discretehardware component and the like. The universal processor may be amicroprocessor or the processor may also be any conventional processorand the like.

In an implementation process, each operation of the method may beimplemented by an integrated logic circuit of hardware in the processoror instructions in a software form. The operations of the methoddisclosed in combination with the embodiments of the disclosure may bedirectly embodied to be executed and implemented by a hardware processoror executed and implemented by combining hardware and software modulesin the processor. The software module may be located in a mature storagemedium in this field such as a RAM, a flash memory, a ROM, aprogrammable ROM or electrically erasable programmable ROM and aregister. The storage medium is located in the memory, and the processorexecutes the instructions in the memory and completes the operations ofthe method in combination with hardware. For avoiding repetitions, nomore detailed descriptions will be made herein.

Those of ordinary skilled in the art may realize that each method stepand unit described in combination with the embodiments disclosed in thedisclosure may be implemented by electronic hardware, computer softwareor a combination of the two. For clearly describing interchangeabilityof hardware and software, the operations and composition of eachembodiment have generally been described in the specification accordingto functions, and whether these functions are executed in a hardware orsoftware manner depends on specific applications and design constraintsof the technical solutions. Those of ordinary skilled in the art mayrealize the described functions for each specific application by virtueof different methods, and such realization shall fall within the scopeof the disclosure.

Those skilled in the art may clearly learn about that specific workingprocesses of the system, device and unit described above may refer tothe corresponding processes in the method embodiment and will not beelaborated herein for convenient and brief description.

In some embodiments provided by the application, it should be understoodthat the disclosed system, device and method may be implemented inanother manner. For example, the device embodiment described above isonly schematic, and for example, division of the units is only logicfunction division, and other division manners may be adopted duringpractical implementation. For example, multiple units or components maybe combined or integrated into another system, or some characteristicsmay be neglected or not executed. In addition, coupling or directcoupling or communication connection between each displayed or discussedcomponent may be indirect coupling or communication connection,implemented through some interfaces, of the device or the units, and maybe electrical and mechanical or adopt other forms.

The units described as separate parts may or may not be physicallyseparated, and parts displayed as units may or may not be physicalunits, and namely may be located in the same place, or may also bedistributed to multiple network units. Part or all of the units may beselected to achieve the purpose of the solutions of the embodiments ofthe disclosure according to a practical requirement.

In addition, each function unit in each embodiment of the disclosure maybe integrated into a processing unit, each unit may also existindependently, and two or more than two unit may also be integrated intoa unit. The integrated unit may be implemented in form of hardware, andmay also be implemented in form of software function unit.

When being implemented in form of software function unit and sold orused as an independent product, the integrated unit may also be storedin a computer-readable storage medium. Based on such an understanding,the technical solutions of the disclosure substantially or parts makingcontributions to the conventional art or all or part of the technicalsolutions may be embodied in form of software product, and the computersoftware product is stored in a storage medium, including a plurality ofinstructions configured to enable a piece of computer equipment (whichmay be a personal computer, a server, network equipment or the like) toexecute all or part of the steps of the method in each embodiment of thedisclosure. The abovementioned storage medium includes: various mediacapable of storing program codes such as a U disk, a mobile hard disk, aROM, a RAM, a magnetic disk or an optical disk.

The above is only the specific implementation mode of the disclosure andnot intended to limit the scope of protection of the disclosure. Anyvariations or replacements apparent to those skilled in the art withinthe technical scope disclosed by the disclosure shall fall within thescope of protection of the disclosure. Therefore, the scope ofprotection of the disclosure shall be subject to the scope of protectionof the claims.

1-52. (canceled)
 53. A method for transmitting uplink information on anunlicensed carrier, comprising: receiving, by terminal equipment,downlink information transmitted in at least one time resource set;receiving, by the terminal equipment, second information used todetermine a first time resource in a present time resource set, whereinthe present time resource set is a time resource set obtained by networkequipment by contention, and the network equipment performs datatransmission on the unlicensed carrier through time resource setsobtained by contention, time resources in each time resource setobtained by contention are continuous, and different time resource setsare discontinuous; and sending, by the terminal equipment, the uplinkinformation corresponding to the downlink information by using the firsttime resource.
 54. The method according to claim 53, wherein receiving,by the terminal equipment, the second information comprises: receiving,by the terminal equipment, the second information after receiving thedownlink information.
 55. The method according to claim 54, whereinreceiving, by the terminal equipment, the second information afterreceiving the downlink information comprises: receiving, by the terminalequipment, the second information in the present time resource set afterreceiving the downlink information.
 56. The method according to claim53, wherein the present time resource set is a time resource setobtained by the network equipment by contention adopting Listen BeforeTalk (LBT).
 57. The method according to claim 53, wherein the downlinkinformation comprises a Physical Downlink Shared Channel (PDSCH), andthe uplink information comprises an Acknowledgement(ACK)/Non-Acknowledgement (NACK).
 58. The method according to claim 53,wherein sending, by the terminal equipment, the uplink informationcorresponding to the downlink information by using the first timeresource comprises: sending, by the terminal equipment, an N-bitACK/NACK to the network equipment through a Physical Uplink ControlChannel (PUCCH) or a Physical Uplink Shared Channel (PUSCH) on the firsttime resource, the N-bit ACK/NACK being configured to indicate whetherthe terminal equipment successfully receives part or all of the PDSCH.59. A method for transmitting uplink information on an unlicensedcarrier, comprising: sending, by network equipment, downlink informationin at least one time resource set; sending, by the network equipment,second information to terminal equipment, wherein the second informationis used to determine a first time resource in a present time resourceset, the present time resource set is a time resource set obtained bythe network equipment by contention, and the network equipment performsdata transmission on the unlicensed carrier through time resource setsobtained by contention, time resources in each time resource setobtained by contention are continuous, and different time resource setsare discontinuous; and receiving, by the network equipment, the uplinkinformation corresponding to the downlink information sent by theterminal equipment using the first time resource.
 60. The methodaccording to claim 59, wherein sending, by the network equipment, thesecond information comprises: sending, by the network equipment, thesecond information after sending the downlink information.
 61. Themethod according to claim 60, wherein sending, by the network equipment,the second information after sending the downlink information comprises:sending, by the network equipment, the second information in the presenttime resource set after sending the downlink information.
 62. The methodaccording to claim 59, wherein the present time resource set is a timeresource set obtained by the network equipment by contention adoptingListen Before Talk (LBT).
 63. The method according to claim 59, whereinthe downlink information comprises a Physical Downlink Shared Channel(PDSCH), and the uplink information comprises an Acknowledgement(ACK)/Non-Acknowledgement (NACK).
 64. The method according to claim 59,wherein receiving, by the network equipment, the uplink informationcorresponding to the downlink information sent by the terminal equipmentusing the first time resource comprises: receiving, by the networkequipment, an N-bit ACK/NACK transmitted by the terminal equipmentthrough a Physical Uplink Control Channel (PUCCH), or a Physical UplinkShared Channel (PUSCH) on the first time resource, the N-bit ACK/NACKbeing configured to indicate whether the terminal equipment successfullyreceives part or all of the PDSCH.
 65. A device for transmitting uplinkinformation on an unlicensed carrier, comprising: a memory, a processor,and a computer program stored on the memory and executable on theprocessor, wherein the computer program, when executed by the processor,causes the processor to execute operations of: receiving downlinkinformation transmitted in at least one time resource set; receivingsecond information used to determine a first time resource in a presenttime resource set, wherein the present time resource set is a timeresource set obtained by network equipment by contention, and thenetwork equipment performs data transmission on the unlicensed carrierthrough time resource sets obtained by contention, time resources ineach time resource set obtained by contention are continuous, anddifferent time resource sets are discontinuous; and sending the uplinkinformation corresponding to the downlink information by using the firsttime resource.
 66. The device according to claim 65, wherein theoperations further comprise: receiving the second information afterreceiving the downlink information.
 67. The device according to claim66, wherein the operations further comprise: receiving the secondinformation in the present time resource set after receiving thedownlink information.
 68. The device according to claim 65, wherein thepresent time resource set is a time resource set obtained by the networkequipment by contention adopting Listen Before Talk (LBT).
 69. Thedevice according to claim 65, wherein the downlink information comprisesa Physical Downlink Shared Channel (PDSCH), and the uplink informationcomprises an Acknowledgement (ACK)/Non-Acknowledgement (NACK).
 70. Thedevice according to claim 65, wherein the operations further comprise:sending an N-bit ACK/NACK to the network equipment through a PhysicalUplink Control Channel (PUCCH) or a Physical Uplink Shared Channel(PUSCH) on the first time resource, the N-bit ACK/NACK being configuredto indicate whether the terminal equipment successfully receives part orall of the PDSCH.